Difference between revisions of "18475937. LIQUID EJECTION APPARATUS AND LIQUID VISCOSITY DETECTION METHOD CAPABLE OF DETECTING VISCOSITY OF LIQUID simplified abstract (KYOCERA Document Solutions Inc.)"
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Contents
- 1 LIQUID EJECTION APPARATUS AND LIQUID VISCOSITY DETECTION METHOD CAPABLE OF DETECTING VISCOSITY OF LIQUID
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 LIQUID EJECTION APPARATUS AND LIQUID VISCOSITY DETECTION METHOD CAPABLE OF DETECTING VISCOSITY OF LIQUID - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Potential Applications
- 1.6 Problems Solved
- 1.7 Benefits
- 1.8 Potential Commercial Applications
- 1.9 Possible Prior Art
- 1.10 How does the count processing portion determine when the vibrations exceed the predetermined threshold value?
- 1.11 What is the range of viscosities that can be accurately detected by the detection processing portion?
- 1.12 Original Abstract Submitted
LIQUID EJECTION APPARATUS AND LIQUID VISCOSITY DETECTION METHOD CAPABLE OF DETECTING VISCOSITY OF LIQUID
Organization Name
KYOCERA Document Solutions Inc.
Inventor(s)
Tatsuya Nakagawa of Osaka (JP)
Satoshi Morimoto of Osaka (JP)
LIQUID EJECTION APPARATUS AND LIQUID VISCOSITY DETECTION METHOD CAPABLE OF DETECTING VISCOSITY OF LIQUID - A simplified explanation of the abstract
This abstract first appeared for US patent application 18475937 titled 'LIQUID EJECTION APPARATUS AND LIQUID VISCOSITY DETECTION METHOD CAPABLE OF DETECTING VISCOSITY OF LIQUID
Simplified Explanation
The liquid ejection apparatus described in the patent application includes a nozzle, pressure chamber, piezoelectric element, count processing portion, and detection processing portion. The nozzle ejects liquid, the pressure chamber contains the liquid, and the piezoelectric element changes pressure in response to a drive signal. The count processing portion counts vibrations in the pressure chamber, while the detection processing portion determines the viscosity of the liquid based on the count result.
- Nozzle ejects liquid
- Pressure chamber contains liquid
- Piezoelectric element changes pressure in response to a drive signal
- Count processing portion counts vibrations in the pressure chamber
- Detection processing portion determines viscosity of the liquid
Potential Applications
The technology described in the patent application could be used in various industries such as printing, pharmaceuticals, and cosmetics for precise liquid ejection and viscosity detection.
Problems Solved
This technology solves the problem of accurately measuring the viscosity of liquids in real-time, which is crucial for quality control and process optimization in various manufacturing processes.
Benefits
The benefits of this technology include improved accuracy in liquid ejection, enhanced quality control, and increased efficiency in manufacturing processes.
Potential Commercial Applications
One potential commercial application of this technology could be in the development of high-precision inkjet printers for industries requiring precise liquid ejection and viscosity control.
Possible Prior Art
One possible prior art for this technology could be existing liquid ejection systems that use different methods for viscosity detection and control, such as mechanical sensors or manual adjustments.
Unanswered Questions
How does the count processing portion determine when the vibrations exceed the predetermined threshold value?
The patent application does not provide specific details on the mechanism used by the count processing portion to determine when the vibrations exceed the threshold value.
What is the range of viscosities that can be accurately detected by the detection processing portion?
The patent application does not mention the specific range of viscosities that can be accurately detected by the detection processing portion.
Original Abstract Submitted
A liquid ejection apparatus includes a nozzle, a pressure chamber, a piezoelectric element, a count processing portion, and a detection processing portion. The nozzle ejects a liquid. The pressure chamber communicates with the nozzle and contains the liquid. The piezoelectric element changes a pressure in the pressure chamber in response to an input of a drive signal. The count processing portion counts a number of times that an electric signal output from the piezoelectric element and corresponding to vibration generated in the pressure chamber in response to the input of the drive signal to the piezoelectric element exceeds a predetermined threshold value. The detection processing portion detects a viscosity of the liquid contained in the pressure chamber, based on a count result of the count processing portion.